Ultraviolet radiation and dehydration stress induce overlapping transcriptional and metabolic responses in Syntrichia mosses

O_LIProtection from excess solar radiation and access to sufficient water are important problems for terrestrial plants to solve. Desiccation tolerance (DT), defined as the ability to equilibrate to dry air and resume normal metabolic activity after rehydration, allows organisms to survive dry periods by limiting metabolic activity to periods of moisture availability. We compared separate and combined effects of chronic ultraviolet radiation (UVR) treatments (UV-A and UV-A/B) and a dehydration treatment (as a surrogate for desiccation) in the mosses Syntrichia ruralis and S. caninervis to uncover the nature of correlation between DT and UVR tolerance (UVRT). C_LIO_LIUsing a fully factorial experiment with combined transcriptomics and metabolomics, we tested for cross-talk (overlap in signaling pathways in response to different stressors but separate mechanisms of protection) in the genetic underpinnings of DT and UVRT and cross-tolerance (overlap in the mechanism of protection) these two stressors. C_LIO_LIShared transcriptomic response to the two stressors with no significant interaction between them suggested cross-talk between UVRT and DT for S. caninervis. Phenolic metabolites and transcripts were involved in the response to UVR and dehydration in both species. C_LIO_LISome candidate UVRT genes and metabolites were induced by UVR in S. ruralis, but not S. caninervis, supporting the hypothesis that S. ruralis has a more plastic, acclimatable UVR response than S. caninervis, and that these differences are predictable by their unique interaction with these stressors as poikilohydric organisms. C_LI